Final answer:
The kinetic energy of the neutron is calculated by multiplying the provided rest energy value (939.6 MeV) by eleven. The result is 10335.6 MeV, which reflects the neutrons kinetic energy being eleven times its rest energy in particle physics.
Step-by-step explanation:
The question is about calculating the kinetic energy of a neutron when it is stated that this kinetic energy is eleven times greater than its rest energy. The mass of the neutron is given as 1.67 × 10−27 kg, which is a common mass value used in particle physics. In this context, the rest energy of a neutron is provided as 939.6 MeV. To find the kinetic energy of the neutron, we would use the given rest energy and multiply it by eleven, since the kinetic energy is eleven times the rest energy.
Given the rest energy of a neutron as 939.6 MeV, the kinetic energy would thus be 939.6 MeV × 11, which equals 10335.6 MeV. It is worth noting that the neutron is a subatomic particle with no electrical charge and is slightly more massive than a proton. Expressing energy in megaelectronvolts (MeV) is typical in nuclear and particle physics due to the extremely small scale of these particles and the energies involved.